小于胎龄儿的追赶生长与认知发育

朱江; 霍言言; 陈津津

doi:10.11852/zgetbjzz2024-0039

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中国儿童保健杂志 ›› 2024, Vol. 32 ›› Issue (12) : 1339-1342. DOI: 10.11852/zgetbjzz2024-0039

综述

小于胎龄儿的追赶生长与认知发育

朱江, 霍言言, 陈津津

作者信息 +

Catch-up growth and cognitive development in small for gestational age infants

ZHU Jiang, HUO Yanyan, CHEN Jinjin

Author information +

文章历史 +

摘要

小于胎龄(SGA)儿常有较差的认知发育结局,尤其是追赶生长失败的SGA儿。研究发现,SGA儿的追赶生长与其认知发育结局有关。了解SGA儿的追赶生长规律及与认知结局的关系,对及时识别异常的生长轨迹和早期干预以改善其认知发育具有重要意义。本文从体重、身长/高和头围3个维度阐述了SGA儿追赶生长与认知发育的关系,为SGA儿出生后体格生长提供参考,促进其实现良好的追赶生长,改善认知结局,提高健康水平和生活质量。

Abstract

Small for gestational age (SGA) infants often experience poor cognitive development outcomes, particularly those who fail to achieve catch-up growth. Research has demonstrated an association between catch-up growth in SGA infants and their cognitive development outcomes. Understanding the patterns of catch-up growth in SGA infants and its relationship with cognitive outcomes is crucial for timely identification of abnormal growth trajectories and early intervention to improve their cognitive development. This article elucidates the relationship between catch-up growth and cognitive development in SGA infants from three dimensions of weight, length (height), and head circumference, in order to provide reference for postnatal physical growth in these infants and facilitate optimal catch-up growth, thereby ultimately improving their overall health and quality of life.

导出引用

朱江, 霍言言, 陈津津. 小于胎龄儿的追赶生长与认知发育[J]. 中国儿童保健杂志. 2024, 32(12): 1339-1342 https://doi.org/10.11852/zgetbjzz2024-0039

ZHU Jiang, HUO Yanyan, CHEN Jinjin. Catch-up growth and cognitive development in small for gestational age infants[J]. Chinese Journal of Child Health Care. 2024, 32(12): 1339-1342 https://doi.org/10.11852/zgetbjzz2024-0039

中图分类号： R174

参考文献

[1] Lee AC, Katz J, Blencowe H, et al. National and regional estimates of term and preterm babies born small for gestational age in 138 low-income and middle-income countries in 2010[J]. Lancet Glob Health, 2013, 1(1): e26-e36
[2] Lawn JE, Ohuma EO, Bradley E, et al. Small babies, big risks: Global estimates of prevalence and mortality for vulnerable newborns to accelerate change and improve counting[J]. Lancet,2023,401(10389):1707-1719.
[3] Hazel EA, Erchick DJ, Katz J, et al. Neonatal mortality risk of vulnerable newborns by fine stratum of gestational age and birthweight for 230 679 live births in nine low- and middle-income countries, 2000—2017[J]. BJOG,2024.doi: 10.1111/1471-0528.17743.
[4] Cardoso-Demartini AA, Boguszewski MCS, Alves CAD. Postnatal management of growth failure in children born small for gestational age [J]. J Pediatr (Rio J), 2019, 95(Suppl 1): 23-29.
[5] Sacchi C, Marino C, Nosarti C, et al.Association of intrauterine growth restriction and small for gestational age status with childhood cognitive outcomes: A systematic review and Meta-analysis[J].JAMA Pediatr,2020,174(8):772-781.
[6] Maguolo A, Olivieri F, Zusi C, et al. The risk of metabolic derangements is higher in children and adolescents with overweight or obesity born small for gestational age[J]. Nutr Metab Cardiovasc Dis,2021,31(6):1903-1910.
[7] Nordman H, Jááskeláinen J, Voutilainen R. Birth size as a determinant of cardiometabolic risk factors in children[J]. Horm Res Paediatr,2020,93(3):144-153.
[8] Hokken-Koelega ACS, van der Steen M, Boguszewski MCS, et al. International consensus guideline on small for gestational age: Etiology and management from infancy to early adulthood[J]. Endocr Rev, 2023, 44(3): 539-565.
[9] Karlberg JP, Albertsson-wikland K, Kwan EY, et al. The timing of early postnatal catch-up growth in normal, full-term infants born short for gestational age[J]. Horm Res, 1997, 48(Suppl 1): 17-24.
[10] Gibson AT, Carney S, Cavazzoni E, et al. Neonatal and post-natal growth[J]. Horm Res,2000,53(Suppl 1):42-49.
[11] Goedegebuure WJ, van der Steen M, Smeets CCJ, et al. SGA-born adults with postnatal catch-up have a persistently unfavourable metabolic health profile and increased adiposity at age 32 years[J]. Eur J Endocrinol,2022,187(1):15-26.
[12] Eves R, Mendonça M, Bartmann P, et al. Small for gestational age-cognitive performance from infancy to adulthood:An observational study[J].Bjog,2020,127(13): 1598-1606.
[13] Miguel PM, Pereira LO, Silveira PP, et al. Early environmental influences on the development of children's brain structure and function[J]. Dev Med Child Neurol, 2019, 61(10): 1127-1133.
[14] 王影, 李桂芳, 刘瑞可,等. 适于胎龄儿和小于胎龄儿小脑发育的对比研究 [J]. 中国当代儿科杂志, 2020, 22(9): 936-941.
Wang Y, Li GF, Liu RK, et al. Comparative study of cerebellar development in appropriate for gestational age and small for gestational age infants[J].Chin J Contemporary Pediatrics, 2020, 22(9): 936-941.(in Chinese)
[15] Motte-signoret E, Shankar-aguilera S, Brailly-tabard S, et al. Small for gestational age preterm neonates exhibit defective GH/IGF1 signaling pathway[J].Front Pediatr, 2021(9): 711400.
[16] Zhu Z, Shen J, Zhu Y, et al. Head circumference trajectories during the first two years of life and cognitive development, emotional, and behavior problems in adolescence: A cohort study[J].Eur J Pediatr,2022,181(9):3401-3411.
[17] Miller SL, Huppi PS, Mallard C. The consequences of fetal growth restriction on brain structure and neurodevelopmental outcome[J]. J Physiol, 2016, 594(4): 807-823.
[18] 王华伟, 吴冰, 刘敬,等. 磁共振弥散张量成像定量评价生长受限胎儿脑白质发育的研究[J].中国当代儿科杂志, 2017, 19(8): 887-892.
Wang HW, Wu B, Liu J, et al. Quantitative evaluation of white matter development in fetuses with growth restriction by magnetic resonance diffusion tensor imaging[J]. Chin J Contemporary Pediatrics, 2017, 19(8): 887-892.(in Chinese)
[19] Lepomáki V, Matomáki J, Lapinleimu H, et al. Effect of antenatal growth on brain white matter maturation in preterm infants at term using tract-based spatial statistics[J]. Pediatr Radiol, 2013, 43(1): 80-85.
[20] Weider S, Lærum AMW, Evensen KAI, et al. Neurocognitive function and associations with mental health in adults born preterm with very low birthweight or small for gestational age at term[J]. Front Psychol,2023(13):1078232.
[21] Lindström L, Wikström AK, Bergman E, et al. Born small for gestational age and poor school performance - How small is too small?[J]. Horm Res Paediatr, 2017, 88(3-4): 215-223.
[22] Taine M, Forhan A, Morgan AS, et al. Early postnatal growth and subsequent neurodevelopment in children delivered at term: The ELFE cohort study[J].Paediatr Perinat Epidemiol,2021,35(6):748-757.
[23] Castanys-muñoz E, Kennedy K, Castañeda-gutiérrez E, et al. Systematic review indicates postnatal growth in term infants born small-for-gestational-age being associated with later neurocognitive and metabolic outcomes [J]. Acta Paediatr, 2017, 106(8): 1230-1238.
[24] Pylipow M,Spector LG,Puumala SE,et al.Early postnatal weight gain, intellectual performance, and body mass index at 7 years of age in term infants with intrauterine growth restriction[J].J Pediatr,2009,154(2): 201-206.
[25] Leroy JL, Frongillo EA, Dewan P, et al.Can children catch up from the consequences of undernourishment? Evidence from child linear growth, developmental epigenetics, and brain and neurocognitive development[J]. Adv Nutr, 2020,11(4):1032-1041.
[26] Takeuchi A, Yorifuji T, Nakamura K, et al. Catch-up growth and neurobehavioral development among full-term, small-for-gestational-age children: A nationwide Japanese population-based study[J]. J Pediatr, 2018(192): 41-46.e2.
[27] Takeuchi A, Yorifuji T, Hattori M, et al. Catch-up growth and behavioral development among preterm, small-for-gestational-age children: A nationwide Japanese population-based study[J]. Brain Dev, 2019, 41(5): 397-405.
[28] Zhu Z, Perumal N, Fawzi WW, et al.Postnatal stature does not largely mediate the relation between adverse birth outcomes and cognitive development in mid-childhood and early adolescence in rural western China[J].J Nutr,2022,152(1): 302-309.
[29] Cho H, Kim EK, Song IG, et al. Head growth during neonatal intensive care unit stay is related to the neurodevelopmental outcomes of preterm small for gestational age infants[J]. Pediatr Neonatol, 2021, 62(6): 606-611.
[30] Kaur H, Bhalla AK, Kumar P. Growth pattern of skinfold thicknesses in term symmetric & asymmetric small for gestational age infants[J]. Indian J Med Res, 2021,154(3):461-466.
[31] Kaur H, Bhalla AK, Kumar P. Longitudinal growth of head circumference in term symmetric and asymmetric small for gestational age infants[J]. Early Hum Dev, 2012, 88(7): 473-478.
[32] Maciejewski E, Hamon I, Fresson J, et al.Growth and neurodevelopment outcome in symmetric versus asymmetric small for gestational age term infants[J].J Perinatol, 2016, 36(8): 670-675.
[33] Marcovecchio ML, Gorman S, Watson LPE, et al. Catch-up growth in children born small for gestational age related to body composition and metabolic risk at six years of age in the UK[J]. Horm Res Paediatr,2020,93(2):119-127.
[34] Lei X, Chen Y, Ye J, et al. The optimal postnatal growth trajectory for term small for gestational age babies: A prospective cohort study[J].J Pediatr, 2015, 166(1):54-58.
[35] Taine M,Charles MA,Beltrand J,et al.Early postnatal growth and neurodevelopment in children born moderately preterm or small for gestational age at term: A systematic review[J]. Paediatr Perinat Epidemiol, 2018, 32(3): 268-280.

基金

国家重点研发计划“生育健康及妇女儿童健康保障”专项(2022YFC2705203);上海市2022年度“科技创新行动计划”技术标准项目(22DZ2203500);上海申康医院发展中心示范性研究型医师创新转化能力培训项目医企融合创新成果转化专项(SHDC2022CRD012);上海市加强公共卫生体系建设三年行动计划(2023—2025年)优秀青年人才(GWVI-11.2-YQ23)